import sigrokdecode as srd
# JTAG debug port data registers (in IR[3:0]) and their sizes (in bits)
+# Note: The ARM DAP-DP is not IEEE 1149.1 (JTAG) compliant (as per ARM docs),
+# as it does not implement the EXTEST, SAMPLE, and PRELOAD instructions.
+# Instead, BYPASS is decoded for any of these instructions.
ir = {
'1111': ['BYPASS', 1], # Bypass register
'1110': ['IDCODE', 32], # ID code register
# TODO: All start/end sample values in self.put() calls are bogus.
+# Bits[31:28]: Version (here: 0x3)
+# JTAG-DP: 0x3, SW-DP: 0x2
+# Bits[27:12]: Part number (here: 0xba00)
+# JTAG-DP: 0xba00, SW-DP: 0xba10
+# Bits[11:1]: JEDEC (JEP-106) manufacturer ID (here: 0x23b)
+# Bits[11:8]: Continuation code ('ARM Limited': 0x04)
+# Bits[7:1]: Identity code ('ARM Limited': 0x3b)
+# Bits[0:0]: Reserved (here: 0x1)
+def decode_device_id_code(bits):
+ id_hex = '0x%x' % int('0b' + bits, 2)
+ ver = '0x%x' % int('0b' + bits[-32:-28], 2)
+ part = '0x%x' % int('0b' + bits[-28:-12], 2)
+ manuf = '0x%x' % int('0b' + bits[-12:-1], 2)
+ res = '0x%x' % int('0b' + bits[-1], 2)
+ return (id_hex, ver, part, manuf, res)
+
class Decoder(srd.Decoder):
api_version = 1
id = 'jtag_stm32'
def handle_reg_idcode(self, bits):
# TODO
self.put(self.ss, self.es, self.out_ann,
- [0, ['IDCODE: 0x%x' % int('0b' + bits, 2)]])
+ [0, ['IDCODE: %s (ver=%s, part=%s, manuf=%s, res=%s)' % \
+ decode_device_id_code(bits)]])
# When transferring data IN:
# Bits[34:3] = DATA[31:0]: 32bit data to transfer (write request)
self.state = 'IDLE'
elif self.state in ('IDCODE', 'DPACC', 'APACC', 'ABORT', 'UNKNOWN'):
# In these states we're interested in outgoing bits (TDO).
- # if cmd != 'DR TDO':
- if cmd not in ('DR TDI', 'DR TDO'):
+ if cmd != 'DR TDO':
+ # if cmd not in ('DR TDI', 'DR TDO'):
return
handle_reg = getattr(self, 'handle_reg_%s' % self.state.lower())
handle_reg(val)
projects / libsigrokdecode.git / commitdiff